Numerical simulation of aerodynamic interaction for a tilt rotor aircraft in helicopter mode

A rotor CFD solver is developed for simulating the aerodynamic interaction phenomenon among rotor, wing and fuselage of a tilt rotor aircraft in its helicopter mode. The unsteady Navier–Stokes equations are discretized in inertial frame and embedded grid system is adopted for describing the relative motion among blades and nacelle/wing/fuselage. A combination of multi-layer embedded grid and ‘‘extended hole fringe" technique is complemented in original grid system to tackle grid assembly difficulties arising from the narrow space among different aerodynamic components, and to improve the interpolation precision by decreasing the cell volume discrepancy among different grid blocks. An overall donor cell searching and automatic hole cutting technique is used for grid assembly, and the solution processes are speeded up by introduction of Open MP parallel method. Based on this solver, flow fields and aerodynamics of a tilt rotor aircraft in hover are simulated with several rotor collective angles, and the corresponding states of an isolated rotor and rotor/wing/fuselage model are also computed to obtain reference solution.Aerodynamic interference influences among the rotor and wing/fuselage/nacelle are analyzed,and some meaningful conclusions are drawn.     

拉瓦尔型微喷管性能的DSMC模拟

运用DSMC方法,对轴对称拉瓦尔型微喷管流动现象进行了仿真模拟,分析了不同壁面边界条件对喷管流动性能的影响。研究结果表明,不同的壁面反射模型对喷管内的流场结构及推力有较大影响;在同等壁面热条件下,随着动量调节系数的增加,喷管粘性损失增大,喷管的推力和比冲都将下降;对不同光滑度与清洁度的喷管表面,一概采用完全漫反射模型,将低估喷管推力性能。     

基于软件锁相环的电机速度控制系统

随着电力电子、微电子技术和控制技术的发展，一些场合对电机调速系统性能的要求越来越高，而锁相调速控制在稳速精度方面有其独特的优势。文章在改进的数字锁相环基础上，提出了软件锁相环电机速度控制系统，利用高性能微处理器实现了软件锁相环。     

Lick Observatory Optical SETI: targeted search and new directions

Lick Observatory's Optical SETI (search for extraterrestrial intelligence) program has been in regular operation for 4.5 years. We have observed 4,605 stars of spectral types F-M within 200 light-years of Earth. Occasionally, we have appended objects of special interest, such as stars with known planetary systems. We have observed 14 candidate signals ("triple coincidences"), all but one of which are explained by transient local difficulties. Additional observations of the remaining candidate have failed to confirm arriving pulse events. We now plan to proceed in a more economical manner by operating in an unattended drift scan mode. Between operational and equipment modifications, efficiency will more than double.     

固体发动机卡环连接结构大变形弹塑性有限元分析

对复合材料壳体与喷管的卡环连接结构进行了弹塑性大变形接触有限元理论分析模型的建立及有限元应力，应变数值分析。对复合材料壳体材料进行了等效正交各向异性轴对称材料模式分析；采用点点间隙单元，分析了卡环，接头及倒锥等多体接触问题。     

机载固体运载火箭能力分析及轨道计算

以我国现有固体火箭发动机为动力装置，以带翼的三级固体运载火箭分析模型为依据，探讨机载火箭发射小型低轨卫星的可行性和现实性。     

卫星轨道摄动频谱分析

本文基于Ｌｉｅ级数的方法对卫星轨道摄动进行了频谱分析。这种摄动是由地球引力场的所有带谱调和项和田谐调和项引起的。为了适用小偏心率轨道，采用了Ｈｉｌｌ变量来描述卫星轨道，并在所获得的谱分析式中保留了所有与偏心率ｅ无关的项。在这个基础上又经过简单的变换给出了卫星位置摄动三分量的谱分析式。     

空间拦截智能自适应变结构导引规律研究

结合空间拦截的精确末制导问题，本文介绍了一种对目标机动和参数摄动具有鲁棒性的自适应结构制导律（ＡＶＳＧ）。在此基础上，我们研究了一种智能自适应变结构制方法（ＩＡＶＳＧ）。此方法精略地估计出目标法向加速度的强度，并以此为依据自主地调整ＡＶＳＧ中变结构项的强度，这样，既可以消除视线角速度的抖动，又可以保证制导精度，仿真结果证明了ＩＡＶＳＧ的有效性。     

星载SAR的多普勒中心频率估计的新探索

本文对几种经典的多普勒中心频率估计算法的从滤波的角度加以分析，分析了符号相关算法的实质，并提出一种了简单适用的非线性滤波方法，对雷达回波方位功率谱周期图进行平滑，在满足成象要求下，可以快速估计出多普勒中心频率。